AI Article Synopsis
- The study explores how water management techniques (continuous flooding vs. alternating wet and dry) and the use of organic waste (cotton straw biochar and sheep manure) affect selenium bioavailability in Se-enriched paddy soils.
- A 10 g·kg application of sheep manure was found to be the most effective in increasing selenium bioavailability under alternating wet and dry conditions, while biochar reduced it.
- The research highlights that these treatments also significantly influenced soil chemistry and bacterial communities, linking specific bacteria types to bioavailable selenium levels, and offers insights for improving agricultural practices in selenium-rich soils.
Article Abstract
Combined effects of water management and agricultural organic waste return on selenium (Se) bioavailability and mechanisms in Se-enriched paddy soils remain unclear. We investigated the effects of continuous flooding (CF) and alternating wet and dry (AWD), two types (cotton straw biochar [BC] and sheep manure [SM]) and concentrations (10 and 50 g·kg) of organic amendments on soil Se bioavailability, bacterial community structure in naturally Se-enriched soils (1.69 mg·kg). Results showed that 10 g·kg SM treatment was the most effective in increasing Se bioavailability, especially under AWD treatment, whereas BC treatment reduced it. Compared with CF treatment, AWD treatment increased the Se content of root surface iron plaque and rhizosphere affinity for Se, and promoted the conversion of soil weakly organic matter bound Se to soluble-Se and exchangeable-Se. BC and SM addition significantly altered soil solution Fe(II), dissolved organic carbon, and soil bacterial community structure and function, including sulfur-oxidizing bacteria (Thiobacillus) and Se-reducing bacteria (Pseudarthrobacter), under different water management regimes. Notably, these bacteria showed a significant correlation with bioavailable Se. The present study provides theoretical guidance for agronomic practices in Se-enriched paddy soils.
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| http://dx.doi.org/10.1016/j.scitotenv.2024.177844 | DOI Listing |
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